Test apparatus and method for testing interoperability of wireless communication devices

ABSTRACT

A test apparatus and method are provided for testing interoperability of a first device to communicate with a second device via wireless communication. The test apparatus includes a wireless interface configured to interface via wireless communication with devices. The test apparatus also includes a processor, memory and logic stored in memory and executed by the processor. The logic causes the test apparatus to sequence through a plurality of wireless communication actions to communicate with a first device, monitor behavior of the first device during the actions, and store characteristics of the monitored behavior in memory so that the test apparatus may be used to emulate the first device when wirelessly communicating with a second device.

TECHNICAL FIELD

The present invention generally relates to wireless communications, and more particularly relates to testing the interoperability of devices that communicate wirelessly, such as with Bluetooth® enabled devices.

BACKGROUND OF THE INVENTION

Short range wireless communication is available on many electronic devices, such as cell phones, microphone and earpiece headsets, laptop computers, desktop computers and is also widely available on many vehicles. Many of these wireless devices are configured with a popular wireless communication package, commonly referred to as Bluetooth® devices. Bluetooth® enabled devices are developed and sold by many companies. As a result, the internal implementation of technology employed in the various Bluetooth® enabled products may vary from one product to another. This often results in problems in trying to ensure the operability of one device wirelessly communicating with another device. In order for developers of devices to ensure proper wireless operation, a large scale interoperability test is generally required.

To perform a large scale interoperability test, developers typically hire outside companies or invest in developing an internal capability to manually test software and hardware associated with their devices' ability to interact with existing or prelaunch hardware. Typically, the interoperability testing is conducted manually by operating individual devices communicating wirelessly with a newly-developed product, such as an entertainment system in a vehicle. This requires purchasing a vast number of devices that may communicate with the entertainment system in the marketplace. As a consequence, the conventional interoperability testing approach requires substantial money and time.

It is therefore desirable to provide for interoperability testing between wireless communication devices that makes the testing more feasible and less costly.

SUMMARY OF THE INVENTION

According to one aspect of the present invention, a test apparatus is provided for testing interoperability of a first device to communicate with a second device via wireless communication. The test apparatus includes a wireless interface configured to interface via wireless communication with at least first and second devices. The test apparatus also includes a processor, memory and logic stored in memory and executed by the processor. The logic causes the test apparatus to sequence through a plurality of wireless communication actions to communicate with a first device, monitor behavior of the first device during the actions, and store characteristics of the monitored behavior in memory so that the test apparatus may be used to emulate the first device when wirelessly communicating with a second device.

According to another aspect of the present invention, a method for testing interoperability of a first device to communicate with a second device via wireless communication is provided. The method includes the steps of providing a test apparatus having a wireless interface configured to interface via wireless transmission with at least first and second devices and communicating the test apparatus with at least a first device. The method also includes the steps of causing the test apparatus to sequence through a plurality of wireless communication actions to communicate with the first device, monitoring behavior of the first device during the actions, and storing characteristics of the monitored behavior in memory. The method further includes the steps of emulating the first device with the test apparatus when wirelessly communicating with a second device.

These and other features, advantages and objects of the present invention will be further understood and appreciated by those skilled in the art by reference to the following specification, claims and appended drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a block diagram of a test apparatus shown replicating a first device, e.g., a cell phone, according to one embodiment;

FIG. 2 is a block diagram illustrating the test apparatus configured to emulate the first device (e.g., cell phone) for communication with a second device in a vehicle;

FIG. 3 is a schematic diagram of the user display of the test apparatus showing a cell phone interface for use in simulating the cell phone;

FIG. 4 is a flow diagram illustrating a routine for replicating a first device with the test apparatus, according to one embodiment; and

FIG. 5 is a routine for emulating the first device when communicating with a second device, according to one embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring now to FIGS. 1-3, an interoperability (IOP) replicator and emulator tester (also referred to as test apparatus) 10 is illustrated for replicating a first wireless device 32 as shown in FIG. 1 and further emulating the first wireless device 32 when communicating wirelessly with a second device 42 as shown in FIG. 2. The test apparatus 10 is configured to test interoperability of the first device 32 to communicate with the second device 42 via wireless communication. The test apparatus 10 aids in development of future products, such as device 42, without requiring a developer to test each and every first device 32 with the second device 42 that is being developed. The first device 32 may include one or more wireless devices, such as Bluetooth® enabled cell phones, microphone and earpiece headsets, laptop computers, desktop computers and other wireless communicating devices. The second device 42 may include any wireless device capable of communicating wirelessly with one or more of the first devices 32. Examples of a second wireless device 42 may include a Bluetooth® enabled vehicle entertainment system, radio, or other device.

With reference to FIGS. 1-3, the interoperability replicator and emulator test apparatus 10 is shown having a processor 12, a touch screen display 14, a wireless interface 16 and memory 20. The processor 12 may include a microprocessor, according to one embodiment. The processor 12 may include other analog and/or digital circuitry including an application specific integrated circuit (ASIC) or other known circuitry according to other embodiments. The processor 12 processes input data, executes routines as described herein to replicate a first device and to emulate the first device, and provides output signals indicative of the interoperability of the devices.

Memory 20 may include any known storage medium, such as random access memory (RAM), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM), flash memory and other memory devices. Memory 20 is shown including an application programming interface (API) portion 22 having a higher abstraction layer 24 and an abstraction layer 26 within the higher abstraction layer 24. Stored within the abstraction layer 26 is a profile wireless functional specification for learned behavior models 30. The learned behavior models are learned during the replication of a first device 32 and are stored in memory 20 and provide information relevant to the interoperability of the wireless (e.g., Bluetooth®) communication of the first device 32. It should be appreciated that a plurality of learned behavior models 30 may be stored in memory 20 to accommodate the learned replication of a plurality of first devices 32. Also stored in memory 20 is a device replication routine 100 for learning the behavior models and a device emulation routine 200 for emulating the learned first device 32 when communicating with a second device 42, according to one embodiment. Routines 100 and 200 are stored as logic executable by the processor 12.

The test apparatus 10 is also shown including a wireless interface 16 adapted to interface via wireless communication with a plurality of devices. The wireless interface 16 may allow wireless communication via short range wireless communication such as Bluetooth®, according to one embodiment. According to another embodiment, the wireless interface 16 may allow short range wireless communication via IEEE spec 802.11. It should be appreciated that the wireless interface 16 may allow other wireless communication including medium range and long range wireless communication such as may be experienced with a local area network (LAN) wireless communication.

The test apparatus 10 further includes a touch screen display 14 which may display output visual information to a user and may allow for a user to interface and input information to the test apparatus 10. Referring particularly to FIG. 3, the touch screen display 14 is illustrated displaying the user interface of a first wireless device, shown as a cell phone 50. In this example, the cell phone 50 is displayed on display 14 showing the phone display 52 and user input keypads 54 that may be actuated by a user to input information such as alphanumeric characters for commands. The test apparatus 10 may be configured such that the touch screen display 14 allows the user to simulate the entry of keypad inputs by touching the display 14 on the displayed cell phone device 50 such that the test apparatus 10 may simulate the user interface with a cell phone device. The intuitive user interface display 14 abstracts the sophisticated behavioral model and appears to the user as a cell phone in this example with input buttons for providing user inputs. Also shown in FIG. 3 is the memory 20 provided within a computer housing 50 and speakers 52 that allow for audio output to a user. It should be appreciated that the test apparatus 10 may be configured by employing logic programmed onto a computer as shown in FIG. 3, or may otherwise be configured. In the computer embodiment, the computer-based tool may be a personal computer or a computing platform with the learned behavior models 30, device replication routine 100 and device emulation routine 200 stored in memory.

The replicator and emulator test apparatus 10 serves both as a replicator to learn wireless interoperability of one or a plurality of first devices 32 and as an emulator to emulate the one or plurality of first devices 32 when communicating with a second device 42. The test apparatus 10 is shown communicating with a first wireless device, such as a Bluetooth® enabled cell phone 32 in FIG. 1. In doing so, the test apparatus 10 communicates wirelessly via wireless interface 16 with the first wireless device(s) 32 during execution of the device replication routine 100 and learns the behavior of the first wireless device(s) 32 such that a behavior model having characterization parameters is stored in memory for each first device 32.

Once one or a plurality of first wireless devices 32 have been learned by the test apparatus 10 and their behavior model characterization parameters are stored in memory, the test apparatus 10 may be employed to test interoperability of the first wireless devices 32 with one or more second wireless devices 42 as shown in FIG. 2. In this embodiment, the test apparatus 10 communicates wirelessly via the wireless interface 16 with a second wireless device 42 shown located on board a vehicle 40, according to one embodiment. The vehicle 40 may be a wheeled automotive vehicle as is generally known in the art. The second wireless device 42 may include any of a number of wireless devices that communicate wirelessly. In the embodiment shown, the second wireless device 42 is a vehicle entertainment system shown having a display and user inputs available on board the vehicle 40. The vehicle entertainment system 42 may incorporate any of a number of functions including radio, navigation, and entertainment as should be evident to those skilled in the art. The test apparatus 10 allows a developer of a vehicle or the vehicle's entertainment system to test the interoperability of a plurality of first devices 32, such as cell phones, with the second wireless device 42 to see if the second wireless device 42 properly operates to communicate wireless data with each of the plurality of first devices 32. In doing so, the test apparatus 10 executes the device emulation routine 200 to communicate with the second wireless device 42 to see if the first devices 30 work correctly with the second device 42. This enables a developer of the vehicle entertainment system 24 or the vehicle 40 to test interoperability of the second wireless device 42 with the first wireless device 32 without requiring purchase and use of all potential first devices 32.

Referring to FIG. 4, the device replication routine 100 is illustrated, according to one embodiment. The replication routine 100 begins at step 102 to start the application to begin the learning process, and then proceeds to step 104 to start up the Bluetooth® enabled first device to emulate. The Bluetooth® enabled device to emulate may include any of a number of devices including cell phones, wireless computers, audio headsets and other Bluetooth® enabled devices or other wireless devices. Next, routine 100 proceeds to step 106 to prepare the test apparatus and the first Bluetooth® enabled device for pairing. The pairing operation may include a conventional pairing in which the devices are configured to communicate with each other, such as entering a matching code (e.g., 0000), as should be evident to those skilled in the art.

Once the test apparatus and the first Bluetooth® enabled device are paired, the replication routine 100 proceeds to step 108 to exercise defined use cases. The use cases may include sequencing through a number of actions involving communication of the test apparatus with each Bluetooth® enabled first device. The sequence of events may include a pairing action, a connection action, a reconnection action, a profile action and multiple profile actions. The use cases typically may be a use that is generally required to exercise use of the device through its full range of behavior. According to one embodiment, the use cases may include a device pairing, a device service connection, a device disconnection and reconnection, and profile actions. The profile actions may be functional steps defined in the present and future Bluetooth® functional profile specifications for profiles including, but not limited to, hands-free phone profile, headset profile, advanced audio distribution profile, audio/video remote control profile, phonebook access profile, object push profile, dial-up networking profile, and other profiles as updated and/or adopted. These actions may be performed multiple times each, in every different valid sequence and by every different valid optional way possible to capture variation by user input. Use cases may also include multiple profile actions which are user actions (or use cases) which require simultaneous use of more than one Bluetooth® profile. Multiple profile actions may include a cell phone streaming music and receiving a call at the same time.

Based on the defined use cases, routine 100 may apply the results to develop a behavior model of the first device in step 110. The behavior model may then be stored in memory in step 112. The characterization parameters of the behavior model may include message response and sequencing, timing between event and responses, message and data formats of response messages, and optional specification features in the Bluetooth® specification. The stored behavior model characterization parameters are indicative of the operability of the first wireless device such that the test apparatus is able to emulate the first device. Once the characterization parameters are stored in memory, the replication routine 100 deletes the connection at step 114. Next, routine 100 proceeds to decision step 116 to determine if the test apparatus is finished learning this first device and, if not, turns to step 106. If the test apparatus is finished learning this first device, then replication routine 100 proceeds to decision step 118 to determine if more Bluetooth® enabled devices are to be learned and, if so, returns to step 104 to emulate therein the next first device. If no more Bluetooth® enabled devices are to be learned as the first device, then replication routine 10 is finished with the replication process at step 120.

Referring to FIG. 5, the emulation routine 200 is illustrated for the test apparatus emulating the first devices to communicate with a second wireless device, according to one embodiment. The emulation routine 200 begins at step 202 to start the application to begin the emulator process, and then proceeds to step 204 to start up the second device under test. The second device under test may include an entertainment system in a vehicle, according to one embodiment. Emulation routine 200 proceeds to step 206 to select a first Bluetooth® enabled device from a menu on the display of the emulator test apparatus at step 206. This may include a user actuating the touch screen display button on the test apparatus to select a desired first Bluetooth® enabled device to test with the second device. Next, routine 200 proceeds to step 208 to perform pairing and connection actions.

Once the pairing and connection actions are complete, emulation routine 200 proceeds to step 210 to execute a product test plan using the emulator in place of the first Bluetooth® enabled device. The product test plan may include the user interacting with the touch screen display of the test apparatus to enter certain inputs so that the test apparatus may check the interoperability of the first device with the second device. Once the product test plan is complete, emulation routine 200 proceeds to step 212 to delete the connections. At decision step 214, emulation routine 200 determines whether the test apparatus is finished testing the second device under test against the emulated first device and, if not, returns to step 208. If the test apparatus is finished testing the second device under test against the emulated first device, then routine 200 proceeds to decision step 216 to determine if more emulated Bluetooth® enabled devices are to be emulated to test with the second device under test and, if so, returns to step 206 to emulate the next first device. If no more emulated first devices are to be emulated, emulation routine 200 is complete at step 218.

The emulation routine 200 executes the product test plan by interacting with a user, according to one embodiment. The test procedure for executing the product text plan may include any of a number of actions that are performed to test interoperability of one or a plurality of first devices with a second device. One example of a test procedure for testing each of the plurality of first devices with the second device is described in the following table which provides the Bluetooth® profile, the requirement, the test procedures implemented and the expected results, which are recorded for each device that is emulated:

Bluetooth ® Test Profile Requirement Step Test Procedures Expected Results Registration HFP Pair 1 Press Talk button. After Setup message is beep, say “setup” played HFP Pair 2 Press Talk button. After Phone Setup beep, say “Phone Setup” message is played HFP Pair 3 Press Talk button. After Pair Phone message beep, say “Pair Phone” is played HFP Pair 4 Press Talk button. After Confirm Name beep, state a name for the message player phone. HFP Pair 5 Press Talk button. After Handsfree and beeps, say “Confirm” Passkey messages are played HFP Pair/Invalid 6 Begin device search on BT TSA plays a Pair Passkey phone. After search, select error Prompt? “Handsfree?” and enter an Verify BT Phone is invalid Passkey (PIN) not connected to TSA. HFP Pair/Valid 7 Repeat steps 3-6 and enter Paired Phone Passkey the correct Passkey(PIN) message is played. “Paired” is displayed on radio and Bluetooth icon will be highlighted. HFP Pair 8 Press Talk button. After Cancelled message beep, say “Cancel” is played. Return to last audio mode. Connectivity HFP Disconnect 1 Turn ACC off. TSA disconnected ACC off to BT phone. Bluetooth Icon is NOT highlighted. HFP Reconnect 2 Turn ACC on. TSA reconnects to ACC on BT Phone. Bluetooth Icon is highlighted. HFP Disconnect 3 Turn Bluetooth or Power BT phone is BT/Phone off on the phone. disconnected from power TSA. Bluetooth Icon is NOT highlighted. HFP Reconnect 4 Turn Bluetooth or Power TSA reconnects to BT/Phone back on. Do search from BT phone. power BT phone for TSA. Bluetooth Icon is highlighted. HFP Disconnected 5 Move Bluetooth phone out BT phone is out of of range from TSA disconnected from Range TSA. Bluetooth Icon is NOT highlighted HFP Reconnect 6 Move Bluetooth phone TSA reconnects to in Range back in range of TSA BT phone. Bluetooth Icon is highlighted HFP Disconnect 7 Disconnect the TSA from BT phone is from BT the BT phone disconnected from Phone TSA. Bluetooth Icon is NOT highlighted HFP Reconnect 8 Reconnect to TSA from the TSA reconnects to from BT BT Phone BT phone. Phone Bluetooth Icon is highlighted. HFP Disconnect 9 Another phone is paired TSA disconnects Switch BT with TSA. Press Talk from the current BT Phone button and say “setup.” phone and connects Press Talk button and say with the other BT “Phone Setup.” Press Talk phone. button and say “Select Phone.” Press Talk button and say name of the other phone. Press Talk button and say “Confirm.” HFP Reconnect 10 Repeat previous Test TSA disconnects Switch BT Procedure to reconnect to from the current BT Phone previous BT phone (Phone phone and connects under test) with the original BT phone. HFP Disconnect 11 Turn power off of all paired TSA disconnects Delete BT phones, except phone from the current BT Paired under test. Press Talk phone. Bluetooth Phone button and say “Setup.” Icon is NOT Press Talk button and say highlighted “Phone Setup.” Press Talk button and say “Delete Phone.” Press Talk button and state the name of the test phone. Press Talk button and say “Confirm.” Place Call HFP Dial by 1 Press Talk button. After Phone on far-end Number beep, say “Dial by rings. Answer Number.” Press Talk phone on far-end. button and state a valid Call is on the VAS phone number. Press Talk button and say “Dial.” HFP Hangup Far- 2 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Dial by 3 Press Talk button. After Phone on far-end Name beep, say “Dial by Name.” rings. Answer Press Talk button and state phone on far-end. a valid stored name. Press Call is on the VAS Talk button and say “Dial.” HFP Hangup far- 4 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state. HFP Dial 5 Press Talk button. After Phone on far-end <Name> beep, say “Dial <Name>.” rings. Answer Press Talk button and say phone on far-end. “Dial.” Call is on the VAS HFP Hangup far- 6 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Dial 5 Press Talk button. After Phone on far-end <Number> beep, say “Dial rings. Answer <Number>.” Press Talk phone on far-end. button and say “Dia.” Call is on the VAS. HFP Hangup far- 6 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Redial 7 Press Talk button. After Phone on far-end beep, say “Redial.” Press rings. Answer Talk button and say “Dial.” phone on far-end. Call is on the VAS HFP Hangup far- 8 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Speed Dial 9 Press Off-Hook SWC. Phone on far-end Press one of the radio rings. Answer presets that has a stored phone on far-end. number. Call is on the VAS HFP Hangup far- 10 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Dial thru 11 Press Talk button. After Phone on far-end Phonebook beep, say “Phonebook.” rings. Answer Press Talk button and say phone on far-end. “List Names.” Press Off- Call is on the VAS. Hook SWC when name is played. HFP Hangup far- 12 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Callback 13 Place a call to the BT Phone on far-end phone. Hangup call. Press rings. Answer Talk button. After beep, phone on far-end. say “Callback.” Press Talk Call is on the VAS button and say “Dia.” HFP Hangup far- 14 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Dial by BT 15 Enter a phone number Phone on far-end phone using the BT phone rings. Answer handset. Press Send button phone on far-end. on phone. Call is on the VAS HFP Hangup far- 16 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state. Receive/End Call HFP Auto 1 Turn BT phone Auto Ringing is heard Answer Answer on. Place a call to through the VAS. the BT phone. Incoming call is answered and call is on the VAS. HFP Hangup far- 2 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Auto 3 Turn BT phone Auto Call is answered Answer Flip answer off. Turn on and is on the VAS phones answer call when phone is opened. Place a call to the BT phone. Flip open the BT phone. HFP Hangup far- 4 Hangup the phone on the Call is terminated end far-end and audio system returns to previous state HFP Answer Off- 5 Turn BT phone Auto Ringing is heard Hook SWC Answer off. Place a call to through the VAS. the BT phone. Call is not automatically answered. HFP Answer Off- 6 Press the off-hook SWC Incoming call is Hook SWC button. answered and call is on the VAS HFP Terminate 7 Press the on-hook SWC Call is terminated Call On- button. and audio system Hook SWC returns to previous state HFP Answer BT 8 Place a call to the BT Ringing is heard Phone Send phone. through the VAS HFP Answer BT 9 Press the Send button on Incoming call is Phone Send BT phone handset. answered and call is on the VAS HFP Terminate 10 Press the End button on BT Call is terminated Call BT phone handset. and audio system Phone End returns to previous state. HFP Reject On- 11 Place a call to the BT Ringing is heard Hook SWC phone. through the VAS HFP Reject On- 12 Press the on-hook SWC Incoming call is Hook SWC button. dropped and call is not on the VAS. Audio system returns to previous state. HFP Reject BT 13 Place a call to the BT Ringing is heard Phone End phone. through the VAS. HFP Reject BT 14 Press the End button on BT Incoming call is Phone End phone handset dropped and call is not on the VAS. Audio system returns to previous state. HFP Call ended 15 Place a call to the BT Call is terminated from loss of phone. Answer call. Cause and audio system cell phone the BT phone to lose returns to previous signal connection with tower, state without losing BT connection. Mute Call HFP Mute Call 1 Place a call to the BT Call is muted. phone. Answer call. Press Verify call stays Talk button and say muted for one “Mute.” minute. HFP Unmute 2 Press Talk button and say Call is unmated. Call “Mute” Call is on the VAS DTMF Tones HFP DTMF 1 Place a call to the BT DTMF tones are tones using phone. Answer call. Press played over the HF Talk button and state an VAS eight digital number. Press Talk button and say “Send.” HFP DTMF 2 Still in call, press another DTMF tones are tones using eight digit number using the played over the BT phone BT phones keypad VAS Transfer HFP Place Call 1 Place a HF call. Answer Call is on the VAS call on far-end HFP Transfer to 2 On BT handset, transfer the Call is transferred to private call to private mode BT handset and mode using audio system returns phone to previous state HFP Transfer to 3 On BT handset, transfer the Call is transferred handsfree call to handsfree mode from BT handset to mode using HF. Call is on the phone VAS HFP Transfer to 4 Press Talk button. After Call is transferred to private beeps, say “Transfer.” BT handset and mode using audio system returns “Transfer” to previous state. HFP Transfer to 5 Press Talk button. After Call is transferred handsfree beeps, say “Transfer.” from BT handset to mode using HF. Call is on the “Transfer” VAS. HFP Transfer to 6 Press Talk button. After Call is transferred to private beeps, say “Transfer.” BT handset and mode using audio system returns “Transfer” to previous state. HFP Transfer to 7 Press the off-hook SWC Call is transferred handsfree button. from BT handset to mode using HF. Call is on the Off-Hook VAS. SWC Indicator Displays HFP BT Icon 1 Paired phone is connected Bluetooth Icon is highlighted. HFP Antenna 2 Paired phone is connected. Antenna Signal Signal Strength is Strength displayed HFP Battery level 3 Paired phone is connected Battery Level is displayed HFP Roaming 4 Paired phone is connected Roaming Indicator Indicator and roaming is displayed Third Call/Call Waiting HFP Answer Off- 1 Place a call to the BT Incoming call is Hook SWC phone. Press the off-hook answered and call is SWC button when it rings on the VAS. HFP Reject 2 Place a second call to the Second call is Second BT phone. Press the on- rejected and first Incoming hook SWC button when it call is still on the Call rings. VAS. HFP Answer 3 Place a second call to the Second call is Second BT phone. Press the off- answered and on the Incoming hook SWC button when it VAS. First call is Call rings placed on hold. HFP Place 4 Press off-hook SWC button Second call is Second Call placed on hold and on Hold first call is active call and is on the VAS. HFP Place First 5 Press off-hook SWC First call is placed Call on button. on hold and second Hold call is active call and is on the VAS. HFP Terminate 6 Press on-hook SWC button. Second call is second call terminated. Phone may auto switch back to first call. If auto switch occurs, first call will be active and on VAS. HFP Switch Back 7 If auto switch does not First call becomes to First Call occur, press the off-hook the active call and is SWC button. A ring back on the VAS. tone may be played. HFP Answer 8 If auto switch does not Second call is Second occur, place a second call answered and on the Incoming to the BT phone. Press the VAS. First call is Call off-hook SWC button when placed on hold. it rings. HFP Terminate 9 If auto switch does not Second call is Second Call occur, press on-hook SWC terminated. button. HFP Terminate 10 If auto switch does not First call is call on hold occur, press the on-hook terminated and (first call) SWC button. A ring back audio system returns tone may be played. to previous state. Phonebook Transfer HFP Phonebook 1 Press Talk button. After Phonebook entry is Entry beep, say “Phonebook.” received by TSA. Added by Press Talk button and say First phone number BT phone “Add Entry.” Press Talk is stated by the TSA button and say “By Phone.” and is on the Press Talk button and say displayed. “Confirm.” Send the Phonebook entry from the BT phone. HFP Next Phone 2 Press Talk button. After Second phone number Beep, say “Next.” number is stated by the TSA and is on the displayed. HFP Previous 3 Press Talk button. After First phone number Phone beep, say “Previous.” is stated by the TSA Number and is on the displayed. HFP Phonebook 4 Press Talk button. After Verify the BT Entry has beep, say “Confirm.” Press phonebook entry been stored the Talk button and state a has been added to name for this entry. Press the TSA phonebook the Talk button and say (number displayed “Confirm.” Press the Talk is correct). button and say “List Phones.” Handsfree On/Off HFP Handsfree 1 Press Talk button and say Handsfree power Power Off “Setup.” Press Talk button has been turned off. and say “Phone Setup.” Press Talk button and say “Handsfree Power.” Press Talk button and say “Turn Off.” HFP Handsfree 2 Verify none of these Power Off functions are available due to the Handsfree power has been turned off. HFP Handsfree 3 Press Talk button and say Handsfree power Power On “Setup.” Press Talk button has been turned on. and say “Phone Setup.” Press Talk button and say “Handsfree Power.” Press Talk button and say “Turn On.” HFP Handsfree 4 Verify these Power On functions are available due to the Handsfree power has been turned on. A2DP Registration A2DP Pair 1 Press Talk button. After Setup message is beep, say “Setup.” played. A2DP Pair 2 Press Talk button. After Phone Setup beep, say “Bluetooth Audio message is played Setup.” A2DP Pair 3 Press Talk button. After Pair Phone message Beep, say Pair Audio.” is played. A2DP Pair 4 Press Talk button. After Confirm Name Beep, say “Test Audio message played. Device.” A2DP Pair 5 Press Talk button. After Handsfree and beeps, say “Confirm.” Passkey messages are played. A2DP Pair 6 Begin device search on BT Paired Device Audio Device. After message is played. search, select “???” and “Paired” is enter Passkey (PIN), if displayed on radio available. and Bluetooth Icon **Not all audio players will will be highlighted. have display or way to Music Note is enter PIN** highlighted. A2DP Pair 7 Press Talk button. After Cancelled message beep, say “Cancel.” is played. Return to last audio mode. A2DP Connection A2DP Disconnect 1 Turn ACC off. BT audio device is disconnected from TSA. Bluetooth Icon is NOT highlighted. Music Note is NOT highlighted. A2DP Reconnect 2 Turn ACC on. TSA reconnects to BT audio device. Bluetooth Icon is highlighted. Music Note is highlighted. A2DP Disconnected 3 Turn Bluetooth or Power BT audio device is Power/BT off on the Audio device. disconnected from Off TSA. Bluetooth Icon is NOT highlighted. Music Note is NOT highlighted. A2DP Reconnect 4 Turn Bluetooth or Power TSA reconnects to Power/BT back on. BT audio device. On Bluetooth Icon is highlighted. Music Note is highlighted. A2DP Disconnect 5 Move Bluetooth audio BT audio device is Out of device out of range from disconnected from Range TSA TSA. Bluetooth Icon is NOT highlighted. Music Note is NOT highlighted. A2DP Reconnect 6 Move Bluetooth audio TSA reconnects to in Range device back in range of BT audio device. TSA Bluetooth Icon is highlighted. Music Note is highlighted. A2DP Disconnect 7 Another Audio Device is TSA disconnects TSA Switch paired to TSA. Press Talk from the current BT to another button and say “Setup.” audio device and device Press Talk button and say connects with the “Bluetooth Audio Setup.” other BT audio Press Talk button and say device. “Select Audio Player.” Press Talk button and state the name of the other audio device. Press Talk button and say “Confirm.” Press Talk button and say “From Car.” Press Talk button and say “Confirm.” TSA begins searching for other audio device. A2DP Reconnect 8 Repeat previous Test TSA disconnects TSA Switch Procedure to reconnect to from the current BT to original previous BT Audio Device audio device and device (Audio Device under test) connects with the original BT audio device. A2DP Disconnect 9 Another Audio Device is TSA disconnects Second paired to TSA. Press Talk from the current BT Audio button and say “Setup.” audio device and device Press Talk button and say connects with the connects to “Bluetooth Audio Setup.” other BT audio TSA Press Talk button and say device. “Select Audio Player.” Press Talk button and state the name of the other audio device. Press Talk button and say “Confirm.” Press Talk button and say “From Audio.” Press Talk button and say “Confirm.” TSA waits for audio device. On other audio device, connect to the TSA. A2DP Reconnect 10 Repeat previous Test TSA disconnects Original Procedure to reconnect to from the current BT Audio previous BT Audio Device audio device and Device (Audio Device under test) connects with the connects to original BT audio TSA device. A2DP Disconnect 11 Turn power off of all paired TSA disconnects Delete BT Audio, except phone from the current BT Paired under test. Press Talk Audio Device. Phone button and say “Setup.” Bluetooth Icon is Press Talk button and say NOT highlighted. “Bluetooth Audio Setup.” Music Note is NOT Press Talk button and say highlighted. “Delete Phone.” Press Talk button and state the name of the test BT Audio Device. Press Talk button and say “Confirm.” AVRCP AVRCP Play 1 Press Play button on TSA Audio from the BT Audio Device is playing on the VAS. AVRCP Stop 2 Press Stop button on TSA Audio from the BT Audio Device is not playing on the VAS. Device may continue playing from the spot of the stop, or start at the beginning of the song. AVRCP Play 3 Press Play button on TSA Audio from the BT audio device is playing on the VAS. AVRCP Pause 4 Press Pause button on TSA Audio from the BT audio device is not playing on the VAS. AVRCP Play 5 Press Play button on TSA Audio from the BT audio device is playing on the VAS. Device should continue playing from the spot of the Pause. AVRCP Fast 6 Press Fast Forward button Current song is Fast Forward on TSA. Release after a Forward on BT few seconds. audio device. AVRCP Rewind 7 Press Rewind button on Current song is TSA. Release after a few Rewind on BT seconds. audio device. AVRCP Forward 8 Press and Release Forward BT audio device (Next) button on TSA. changes to the next song. AVRCP Backward 9 Press and Release BT audio device Backward (Previous) changes to the button on TSA. previous song.

The test procedure may be interactive in which a user interfaces with the touch screen display to input actions pursuant to the test procedure. It should be appreciated that some of the test procedure actions may be automated and that the expected results may be automatically stored in memory and may be processed to determine whether the interoperability of each first device with the second device performs satisfactory. One example of a test procedure is given which includes actions for registration, connectivity, placing a phone call, receiving or ending a call, muting a call, providing tones, transfer function, indicator displays, third call/call waiting, phonebook transfers, handsfree on/off actions, registrations, and other actions. It should be appreciated that these and other actions may be applied for any given test procedure, depending upon the functionality of the devices and the expected interoperability of the devices. It should be appreciated that while the test procedure shown and described herein is one example of testing a first device with a second device by emulating the first device. It should be appreciated that the same or similar test procedure may be employed during the replication process to learn the characteristics of each of a plurality of first devices by performing similar actions and storing these characteristics in the test apparatus.

Accordingly, it should be appreciated that the test apparatus 10 advantageously learns the behavior characteristics of a plurality of wireless first devices and emulates the plurality of wireless first devices when communicating with a second device so as to allow for enhanced interoperability testing. The test apparatus 10 advantageously allows for the elimination of physical first devices when testing a second device so that a developer, such as a manufacturer of a vehicle or a device employed based on an automotive vehicle, may easily and cost effectively check the interoperability of their devices.

It will be understood by those who practice the invention and those skilled in the art, that various modifications and improvements may be made to the invention without departing from the spirit of the disclosed concept. The scope of protection afforded is to be determined by the claims and by the breadth of interpretation allowed by law. 

1. A test apparatus for testing interoperability of a first device to communicate with a second device via wireless communication, said test apparatus comprising: a wireless interface configured to interface via wireless communication with at least first and second devices; a processor; memory; and logic stored in memory and executed by the processor, said logic causing the test apparatus to sequence through a plurality of wireless communication actions to communicate with a first device, monitoring behavior of the first device during the actions, and storing characteristics of the monitored behavior in memory so that the test apparatus may be used to emulate the first device when wirelessly communicating with a second device.
 2. The test apparatus as defined in claim 1, wherein the test apparatus further communicates with a second device and emulates the first device such that the interoperability of the first device wirelessly communicates with the second device so that the second device can be tested.
 3. The test apparatus as defined in claim 1, wherein the monitored behavior of the first device comprises message response, timing between event and response and message in data formats.
 4. The test apparatus as defined in claim 3, wherein the emulation comprises a comparing the message response, timing variation and message and data formatting of the first device to the second device.
 5. The test apparatus as defined in claim 1, wherein the wireless communication comprises a Bluetooth® communication.
 6. The test apparatus as defined in claim 1, wherein the characteristics of the monitored behavior are stored in an abstraction layer of the memory.
 7. The test apparatus as defined in claim 1, wherein the second device comprises a vehicle device.
 8. The test apparatus as defined in claim 7, wherein the vehicle device comprises a vehicle entertainment system.
 9. The test apparatus as defined in claim 1, wherein the logic further performs a pairing operation to communicate the test apparatus with the first device and further performs a plurality of actions.
 10. The test apparatus as defined in claim 1, wherein the first device comprises a cell phone.
 11. The test apparatus as defined in claim 1, wherein the test apparatus comprises a display, wherein the display provides an interface substantially similar to an interface on the first device so that a user may interface with the second device via the display to emulate the first device.
 12. A method for testing interoperability of a first device to communicate with a second device via wireless communication, said method comprising the steps of: providing a test apparatus having a wireless interface configured to interface via wireless transmission with at least first and second devices; communicating the test apparatus with at least a first device; causing the test apparatus to sequence through a plurality of wireless communication actions to communicate with the first device; monitoring behavior of the first device during the actions; storing characteristics of the monitored behavior in memory; and emulating the first device with the test apparatus when wirelessly communicating with a second device.
 13. The method as defined in claim 12 further comprising the step of emulating the first device with the test apparatus when communicating with the second device so that the interoperability of the first device wirelessly communicating with the second device can be tested.
 14. The method as defined in claim 12, wherein the step of storing characteristics of the monitored behavior comprise storing message responses, timing between event response and message and data formats of the first device.
 15. The method as defined in claim 14, wherein the step of emulating the first device comprises comparing the message responses, timing variation and message and data formats of the first device to the second device.
 16. The method as defined in claim 15, wherein the step of storing characteristics of the monitored behavior comprises storing the characteristics in an abstraction layer of the memory.
 17. The method as defined in claim 12, wherein the second device comprises a vehicle device.
 18. The method as defined in claim 17, wherein the vehicle device comprises a vehicle entertainment system.
 19. The method as defined in claim 12 further comprising the steps of performing a pairing operation to communicate the test apparatus with the first device and further performing a sequence of actions.
 20. The method as defined in claim 12, wherein the first device comprises a cell phone.
 21. The method as defined in claim 12, wherein the test apparatus comprises a display, wherein the display provides an interface substantially similar to an interface on the first device so that a user may interface with the second device via the display to emulate the first device. 